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548 lines
14 KiB
548 lines
14 KiB
/*++
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Copyright (c) 1991 Microsoft Corporation
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Module Name:
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WorkQue.c
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Abstract:
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This module implements the Work queue routines for the Ntfs File
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system.
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Author:
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Gary Kimura [GaryKi] 21-May-1991
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Revision History:
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--*/
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#include "NtfsProc.h"
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//
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// The following constant is the maximum number of ExWorkerThreads that we
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// will allow to be servicing a particular target device at any one time.
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//
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#define FSP_PER_DEVICE_THRESHOLD (2)
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#ifdef ALLOC_PRAGMA
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#pragma alloc_text(PAGE, NtfsOplockComplete)
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#endif
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VOID
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NtfsOplockComplete (
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IN PVOID Context,
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IN PIRP Irp
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)
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/*++
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Routine Description:
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This routine is called by the oplock package when an oplock break has
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completed, allowing an Irp to resume execution. If the status in
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the Irp is STATUS_SUCCESS, then we queue the Irp to the Fsp queue.
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Otherwise we complete the Irp with the status in the Irp.
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Arguments:
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Context - Pointer to the IrpContext to be queued to the Fsp
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Irp - I/O Request Packet.
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Return Value:
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None.
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--*/
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{
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NTSTATUS Status = Irp->IoStatus.Status;
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PIRP_CONTEXT IrpContext = (PIRP_CONTEXT) Context;
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PAGED_CODE();
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//
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// Check on the return value in the Irp.
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//
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if (Status == STATUS_SUCCESS) {
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//
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// Insert the Irp context in the workqueue.
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//
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NtfsAddToWorkque( IrpContext, Irp );
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//
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// If this is create and we have a completion event then
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// we just want to signal the event and clean up the IrpContext.
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// There is someone waiting who will clean up the Irp.
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//
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} else if ((IrpContext->MajorFunction == IRP_MJ_CREATE) &&
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(IrpContext->Union.OplockCleanup != NULL) &&
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(IrpContext->Union.OplockCleanup->CompletionContext != NULL)) {
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KeInitializeEvent( &IrpContext->Union.OplockCleanup->CompletionContext->Event,
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NotificationEvent,
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TRUE );
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ASSERT( Status != STATUS_PENDING && Status != STATUS_REPARSE );
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NtfsCompleteRequest( IrpContext, NULL, Status );
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//
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// Otherwise complete the Irp and cleanup the IrpContext.
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//
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} else {
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ASSERT( Status != STATUS_PENDING && Status != STATUS_REPARSE );
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NtfsCompleteRequest( IrpContext, Irp, Status );
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}
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return;
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}
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VOID
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NtfsPrePostIrp (
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IN PVOID Context,
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IN PIRP Irp OPTIONAL
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)
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/*++
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Routine Description:
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This routine performs any neccessary work before STATUS_PENDING is
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returned with the Fsd thread. This routine is called within the
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filesystem and by the oplock package.
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Arguments:
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Context - Pointer to the IrpContext to be queued to the Fsp
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Irp - I/O Request Packet (or FileObject in special close path)
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Return Value:
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None.
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--*/
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{
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PIRP_CONTEXT IrpContext;
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PIO_STACK_LOCATION IrpSp = NULL;
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#if (DBG || defined( NTFS_FREE_ASSERTS ))
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PUSN_FCB ThisUsn, LastUsn;
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#endif
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IrpContext = (PIRP_CONTEXT) Context;
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//
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// Make this is a valid allocated IrpContext. It's ok for
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// this to be allocated on the caller's stack as long as the
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// caller's not doing this operation asynchronously.
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//
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ASSERT_IRP_CONTEXT( IrpContext );
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ASSERT((FlagOn( IrpContext->State, IRP_CONTEXT_STATE_ALLOC_FROM_POOL )) ||
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(IrpContext->NodeTypeCode == NTFS_NTC_IRP_CONTEXT));
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//
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// Make sure if we are posting the request, which may be
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// because of log file full, that we free any Fcbs or PagingIo
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// resources which were acquired.
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//
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//
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// Just in case we somehow get here with a transaction ID, clear
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// it here so we do not loop forever.
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//
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if (IrpContext->TransactionId != 0) {
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NtfsCleanupFailedTransaction( IrpContext );
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}
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//
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// Cleanup all of the fields of the IrpContext.
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// Restore the thread context pointer if associated with this IrpContext.
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//
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if (FlagOn( IrpContext->State, IRP_CONTEXT_STATE_OWNS_TOP_LEVEL )) {
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NtfsRestoreTopLevelIrp();
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ClearFlag( IrpContext->State, IRP_CONTEXT_STATE_OWNS_TOP_LEVEL );
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}
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SetFlag( IrpContext->Flags, IRP_CONTEXT_FLAG_DONT_DELETE );
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NtfsCleanupIrpContext( IrpContext, FALSE );
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#if (DBG || defined( NTFS_FREE_ASSERTS ))
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//
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// If we are aborting a transaction, then it is important to clear out the
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// Usn reasons, so we do not try to write a Usn Journal record for
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// somthing that did not happen! Worse yet if we get a log file full
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// we fail the abort, which is not allowed.
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//
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// First, reset the bits in the Fcb, so we will not fail to allow posting
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// and writing these bits later. Note that all the reversible changes are
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// done with the Fcb exclusive, and they are actually backed out anyway.
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// All the nonreversible ones (only unnamed and named data overwrite) are
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// forced out first anyway before the data is actually modified.
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//
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ThisUsn = &IrpContext->Usn;
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do {
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ASSERT( !FlagOn( ThisUsn->UsnFcbFlags, USN_FCB_FLAG_NEW_REASON ));
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if (ThisUsn->NextUsnFcb == NULL) { break; }
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LastUsn = ThisUsn;
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ThisUsn = ThisUsn->NextUsnFcb;
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} while (TRUE);
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#endif
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IrpContext->OriginatingIrp = Irp;
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//
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// Note that close.c uses a trick where the "Irp" is really
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// a file object.
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//
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if (ARGUMENT_PRESENT( Irp )) {
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if (Irp->Type == IO_TYPE_IRP) {
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IrpSp = IoGetCurrentIrpStackLocation( Irp );
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//
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// We need to lock the user's buffer, unless this is an MDL-read,
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// in which case there is no user buffer.
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//
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// **** we need a better test than non-MDL (read or write)!
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if (IrpContext->MajorFunction == IRP_MJ_READ
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|| IrpContext->MajorFunction == IRP_MJ_WRITE) {
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ClearFlag(IrpContext->MinorFunction, IRP_MN_DPC);
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//
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// Lock the user's buffer if this is not an Mdl request.
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//
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if (!FlagOn( IrpContext->MinorFunction, IRP_MN_MDL )) {
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NtfsLockUserBuffer( IrpContext,
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Irp,
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(IrpContext->MajorFunction == IRP_MJ_READ) ?
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IoWriteAccess : IoReadAccess,
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IrpSp->Parameters.Write.Length );
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}
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//
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// We also need to check whether this is a query directory operation.
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//
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} else if (IrpContext->MajorFunction == IRP_MJ_DIRECTORY_CONTROL
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&& IrpContext->MinorFunction == IRP_MN_QUERY_DIRECTORY) {
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NtfsLockUserBuffer( IrpContext,
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Irp,
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IoWriteAccess,
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IrpSp->Parameters.QueryDirectory.Length );
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//
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// These two FSCTLs use neither I/O, so check for them.
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//
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} else if ((IrpContext->MajorFunction == IRP_MJ_FILE_SYSTEM_CONTROL) &&
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(IrpContext->MinorFunction == IRP_MN_USER_FS_REQUEST) &&
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((IrpSp->Parameters.FileSystemControl.FsControlCode == FSCTL_READ_USN_JOURNAL) ||
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(IrpSp->Parameters.FileSystemControl.FsControlCode == FSCTL_GET_RETRIEVAL_POINTERS))) {
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NtfsLockUserBuffer( IrpContext,
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Irp,
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IoWriteAccess,
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IrpSp->Parameters.FileSystemControl.OutputBufferLength );
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}
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//
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// Mark that we've already returned pending to the user
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//
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IoMarkIrpPending( Irp );
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}
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}
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return;
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}
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NTSTATUS
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NtfsPostRequest(
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IN PIRP_CONTEXT IrpContext,
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IN PIRP Irp OPTIONAL
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)
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/*++
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Routine Description:
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This routine enqueues the request packet specified by IrpContext to the
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work queue associated with the FileSystemDeviceObject. This is a FSD
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routine.
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Arguments:
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IrpContext - Pointer to the IrpContext to be queued to the Fsp
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Irp - I/O Request Packet (or FileObject in special close path)
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Return Value:
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STATUS_PENDING
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--*/
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{
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//
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// Before posting, free any Scb snapshots. Note that if someone
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// is calling this routine directly to post, then he better not
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// have changed any disk structures, and thus we should have no
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// work to do. On the other hand, if someone raised a status
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// (like STATUS_CANT_WAIT), then we do both a transaction abort
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// and restore of these Scb values.
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//
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NtfsPrePostIrp( IrpContext, Irp );
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NtfsAddToWorkque( IrpContext, Irp );
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//
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// And return to our caller
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//
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return STATUS_PENDING;
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}
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VOID
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NtfsCancelOverflowRequest (
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IN PDEVICE_OBJECT Device,
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IN PIRP Irp
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)
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/*++
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Routine Description:
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This routine may be called by the I/O system to cancel an outstanding
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Irp in the overflow queue. If its an irp that must be processed we move the irp to the
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top of the queue o.w we cancel it direclty. The dequeuing code guarantees the cancel routine is removed before
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the irpcontext is dequeued. It also won't dequeue an irp that is marked with a 1 in the info
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field. Note we are guarranteed by io subsys that
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the irp will remain for the lifetime of this call even after we drop the spinlock
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Arguments:
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DeviceObject - DeviceObject from I/O system
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Irp - Supplies the pointer to the Irp being canceled.
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Return Value:
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None
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--*/
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{
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PIRP_CONTEXT IrpContext;
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PVOLUME_DEVICE_OBJECT Vdo;
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KIRQL SavedIrql;
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PIO_STACK_LOCATION IrpSp;
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BOOLEAN Cancel;
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IrpContext = (PIRP_CONTEXT)Irp->IoStatus.Information;
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IrpSp = IoGetCurrentIrpStackLocation( Irp );
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Cancel = (IrpContext->MajorFunction != IRP_MJ_CLEANUP) &&
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(IrpContext->MajorFunction != IRP_MJ_CLOSE);
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ASSERT( Cancel );
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ASSERT( IrpContext->NodeTypeCode == NTFS_NTC_IRP_CONTEXT );
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Vdo = CONTAINING_RECORD( Device,
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VOLUME_DEVICE_OBJECT,
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DeviceObject );
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IoReleaseCancelSpinLock( Irp->CancelIrql );
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//
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// Gain the critical workqueue spinlock and
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// either cancel it or move it to the head of the list
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// Note the workqueue code always tests the cancel first before working which
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// is what synchronizes this
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//
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ExAcquireSpinLock( &Vdo->OverflowQueueSpinLock, &SavedIrql );
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RemoveEntryList( &IrpContext->WorkQueueItem.List );
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if (!Cancel) {
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InsertHeadList( &Vdo->OverflowQueue, &IrpContext->WorkQueueItem.List );
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Irp->Cancel = 0;
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} else {
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Vdo->OverflowQueueCount -= 1;
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}
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ExReleaseSpinLock( &Vdo->OverflowQueueSpinLock, SavedIrql );
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if (Cancel) {
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if (Vdo->OverflowQueueCount < OVERFLOW_QUEUE_LIMIT) {
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KeSetEvent( &Vdo->OverflowQueueEvent, IO_NO_INCREMENT, FALSE );
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}
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NtfsCompleteRequest( IrpContext, Irp, STATUS_CANCELLED );
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}
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}
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//
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// Local support routine.
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//
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VOID
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NtfsAddToWorkque (
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IN PIRP_CONTEXT IrpContext,
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IN PIRP Irp OPTIONAL
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)
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/*++
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Routine Description:
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This routine is called to acually store the posted Irp to the Fsp
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workque.
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Arguments:
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IrpContext - Pointer to the IrpContext to be queued to the Fsp
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Irp - I/O Request Packet.
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Return Value:
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None.
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--*/
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{
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PIO_STACK_LOCATION IrpSp;
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NTSTATUS Status = STATUS_SUCCESS;
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if (ARGUMENT_PRESENT( Irp )) {
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IrpSp = IoGetCurrentIrpStackLocation( Irp );
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//
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// Check if this request has an associated file object, and thus volume
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// device object.
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//
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if ( IrpSp->FileObject != NULL ) {
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KIRQL SavedIrql;
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PVOLUME_DEVICE_OBJECT Vdo;
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Vdo = CONTAINING_RECORD( IrpSp->DeviceObject,
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VOLUME_DEVICE_OBJECT,
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DeviceObject );
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//
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// Check to see if this request should be sent to the overflow
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// queue. If not, then send it off to an exworker thread. Block here
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// for non deferred write threads when the overflow queue is full
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//
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if ((Vdo->OverflowQueueCount >= OVERFLOW_QUEUE_LIMIT) &&
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!FlagOn( IrpContext->Flags, IRP_CONTEXT_FLAG_DEFERRED_WRITE )) {
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KeWaitForSingleObject( &Vdo->OverflowQueueEvent, Executive, KernelMode, FALSE, NULL );
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}
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ExAcquireSpinLock( &Vdo->OverflowQueueSpinLock, &SavedIrql );
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if ( Vdo->PostedRequestCount > FSP_PER_DEVICE_THRESHOLD) {
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//
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// We cannot currently respond to this IRP so we'll just enqueue it
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// to the overflow queue on the volume.
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//
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if (NtfsSetCancelRoutine( Irp, NtfsCancelOverflowRequest, (ULONG_PTR)IrpContext, TRUE )) {
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if (Status == STATUS_SUCCESS) {
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InsertTailList( &Vdo->OverflowQueue,
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&IrpContext->WorkQueueItem.List );
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Vdo->OverflowQueueCount += 1;
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}
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} else {
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Status = STATUS_CANCELLED;
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}
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ExReleaseSpinLock( &Vdo->OverflowQueueSpinLock, SavedIrql );
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if (Status != STATUS_SUCCESS) {
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if (Vdo->OverflowQueueCount < OVERFLOW_QUEUE_LIMIT) {
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KeSetEvent( &Vdo->OverflowQueueEvent, IO_NO_INCREMENT, FALSE );
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}
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NtfsCompleteRequest( IrpContext, Irp, Status );
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}
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return;
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} else {
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//
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// We are going to send this Irp to an ex worker thread so up
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// the count.
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//
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if (Vdo->OverflowQueueCount < OVERFLOW_QUEUE_LIMIT) {
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KeSetEvent( &Vdo->OverflowQueueEvent, IO_NO_INCREMENT, FALSE );
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}
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Vdo->PostedRequestCount += 1;
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ExReleaseSpinLock( &Vdo->OverflowQueueSpinLock, SavedIrql );
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}
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}
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}
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//
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// Send it off.....
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//
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ExInitializeWorkItem( &IrpContext->WorkQueueItem,
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NtfsFspDispatch,
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(PVOID)IrpContext );
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ExQueueWorkItem( &IrpContext->WorkQueueItem, CriticalWorkQueue );
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return;
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}
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